LT3436 LINER [Linear Technology], LT3436 Datasheet - Page 9

LT3436

Manufacturer Part Number

LT3436

Description

3A, 800kHz Step-Up Switching Regulator

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3436.pdf (16 pages)

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APPLICATIONS

SYNCHRONIZATION

The SYNC pin, is used to synchronize the internal oscilla-

tor to an external signal. The SYNC input must pass from

a logic level low, through the maximum synchronization

threshold with a duty cycle between 20% and 80%. The

input can be driven directly from a logic level output. The

synchronizing range is equal to initial operating frequency

up to 1.4MHz. This means that minimum practical sync

frequency is equal to the worst-case high self-oscillating

frequency (960kHz), not the typical operating frequency of

800kHz. Caution should be used when synchronizing

above 1.1MHz because at higher sync frequencies the

amplitude of the internal slope compensation used to

prevent subharmonic switching is reduced. Higher induc-

tor values will tend to eliminate this problem. See Fre-

quency Compensation section for a discussion of an

entirely different cause of subharmonic switching before

assuming that the cause is insufficient slope compensa-

tion. Application Note 19 has more details on the theory

of slope compensation.

LAYOUT CONSIDERATIONS

As with all high frequency switchers, when considering

layout, care must be taken to achieve optimal electrical,

thermal and noise performance. For maximum efficiency,

switch rise and fall times are typically in the nanosecond

range. To prevent noise both radiated and conducted, the

INFORMATION

Figure 5. High Speed Switching Path

LT3436

GND

FREQUENCY

SWITCHING

PATH

HIGH

high speed switching current path, shown in Figure 5,

must be kept as short as possible. This is implemented in

the suggested layout of Figure 6. Shortening this path will

also reduce the parasitic trace inductance of approxi-

mately 25nH/inch. At switch off, this parasitic inductance

produces a flyback spike across the LT3436 switch. When

operating at higher currents and output voltages, with

poor layout, this spike can generate voltages across the

LT3436 that may exceed its absolute maximum rating. A

ground plane should always be used under the switcher

circuitry to prevent interplane coupling and overall noise.

The V

possible from the switch node. The LT3436 pinout has

been designed to aid in this. The ground for these compo-

nents should be separated from the switch current path.

Failure to do so will result in poor stability or subharmonic

like oscillation.

Board layout also has a significant effect on thermal

resistance. The exposed pad is the copper plate that runs

under the LT3436 die. This is the best thermal path for heat

out of the package. Soldering the pad onto the board will

reduce die temperature and increase the power capability

of the LT3436. Provide as much copper area as possible

around this pad. Adding multiple solder filled feedthroughs

under and around the pad to the ground plane will also

help. Similar treatment to the catch diode and inductor

terminations will reduce any additional heating effects.

and FB components should be kept as far away as

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LT3436 LINER [Linear Technology], LT3436 Datasheet - Page 9

LT3436

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